Li-Chen Shi scite author profile

This paper proposes a novel feature called differential entropy for EEG-based vigilance estimation. By mathematical derivation, we find an interesting relationship between the proposed differential entropy and the existing logarithm energy spectrum. We present a physical interpretation of the logarithm energy spectrum which is widely used in EEG signal analysis. To evaluate the performance of the proposed differential entropy feature for vigilance estimation, we compare it with four existing features on an EEG data set of twenty-three subjects. All of the features are projected to the same dimension by principal component analysis algorithm. Experiment results show that differential entropy is the most accurate and stable EEG feature to reflect the vigilance changes.

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Automatic artifact removal from EEG - a mixed approach based on double blind source separation and support vector machine

Bartels

Shi

2010

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Abstract-Electroencephalography (EEG) recordings are often obscured by physiological artifacts that can render huge amounts of data useless and thus constitute a key challenge in current brain-computer interface research. This paper presents a new algorithm that automatically and reliably removes artifacts from EEG based on blind source separation and support vector machine. Performance on a motor imagery task is compared for artifact-contaminated and preprocessed signals to verify the accuracy of the proposed approach. The results showed improved results over all datasets. Furthermore, the online applicability of the algorithm is investigated.

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An EOG-based Vigilance Estimation Method Applied for Driver Fatigue Detection

Ma¹,

Shi²,

2015

NBE

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Li-Chen Shi

EEG-based emotion recognition during watching movies

EEG-based vigilance estimation using extreme learning machines

Differential entropy feature for EEG-based vigilance estimation

Automatic artifact removal from EEG - a mixed approach based on double blind source separation and support vector machine

An EOG-based Vigilance Estimation Method Applied for Driver Fatigue Detection

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